CCS801 Datasheet...4 CCS801B Datasheet Revision 2 SC-001255-DS / 2021-01-22 1.2 Key Benefits &...
Transcript of CCS801 Datasheet...4 CCS801B Datasheet Revision 2 SC-001255-DS / 2021-01-22 1.2 Key Benefits &...
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CCS801
Ultra-Low Power Analog VOC Sensor for Indoor Air Quality Monitoring
CCS801 Datasheet
Revision: 2
Release Date: January 2021
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2 CCS801B Datasheet Revision 2 SC-001255-DS / 2021-01-22
Document Status: Production
Content Guide
Content Guide .................................... 2
1 General Description .................... 3
1.1 Product Overview ....................... 3
1.2 Key Benefits & Features ............... 4
1.3 Applications ............................. 4
1.4 Application Diagram .................... 4
1.5 Pin Assignment .......................... 5
1.6 Absolute Maximum Ratings ............ 6
1.7 Electrical Characteristics .............. 7
2 Detailed Description ................... 8
2.1 Sensor Performance .................... 8
3 Application Information ................ 9
4 Package Information ................ 10
4.1 Package outline dimension ........... 10
4.2 Landing pattern ........................ 11
5 Ordering & Contact Information ..... 12
6 RoHS Compliance & ScioSense Green Statement ............................... 13
7 Copyrights & Disclaimer .............. 13
8 Document Status ....................... 14
9 Revision Information .................. 14
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CCS801B Datasheet Revision 2 SC-001255-DS / 2021-01-22 3
1 General Description
ScioSense micro-hotplate technology provides a unique silicon platform for the CCS80x range of Metal Oxide (MOX) gas sensors. These devices enable sensor minia-turization, have ultra-low power consumption and provide fast response times due to the ability to heat the micro-hotplate very quickly. The micro-hotplates are fab-ricated using a robust silicon dioxide membrane and include an embedded tungsten heating element to heat the MOX based sensing material. The MOX sensing material can be heated up to 500°C to allow the electrical resistance of the MOX sensor to be monitored to detect the target gas. By exploiting the fast heater cycling times, temperature modulation techniques can be used to reduce the device power con-sumption and implement advanced gas sensing methods.
Software libraries containing proprietary algorithms and example Android applica-tions are available for indoor air quality monitoring.
1.1 Product Overview
CCS801 is an ultra-low power analog sensor for monitoring indoor air quality includ-ing Carbon Monoxide (CO) and a wide range of Volatile Organic Compounds (VOCs) such as Ethanol. CCS801 can be used as an equivalent carbon dioxide (eCO2) sensor to represent eCO2 levels in real world environments, where the main source of VOCs is from humans.
For CCS801 a supply voltage (VH) is provided to the integrated micro-heater and the gas concentration can be correlated to the change in resistance of the MOX sensing layer (RS).
VH can be operated in constant or pulsed mode to reduce power consumption. The sensor resistance (RS) is typically determined using a series load resistor (RL), a ref-erence voltage (VREF), and by reading an output voltage (VOUT) with an Analogue-to-Digital Converter (ADC). The reference voltage (VREF) must only be enabled during the sensor reading.
CCS801 is supported in a compact 2mm x 3mm x 1mm DFN (Dual Flat No lead) package as standard.
Ordering Information and Content Guide appear at end of datasheet.
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1.2 Key Benefits & Features
The benefits and features of CCS801, Ultra-Low Power Analog VOC Sensor for In-door Air Quality Monitoring are listed below:
Table 1 Added Value of Using CCS801 Sensor
Benefits Features
• Extend battery life for portable applica-
tions
• Optimized low-power modes
• Sensitive to target gases • Reduced cross sensitivity
• Fast heating time
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1.5 Pin Assignment
Figure 2 Pin Diagram
Table 2 Pin Description
Pin Number Pin Name Description
1 Sensor + Sensor output (VOUT)
2 Heater + Heater Input (VH)
3 Sensor - Connect to Ground or 0V
4 Heater - Connect to Ground or 0V
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1.6 Absolute Maximum Ratings
Stresses beyond those listed under “Absolute Maximum Ratings” may cause perma-nent damage to the device. These are stress ratings only. Functional operation of the device at these or any other conditions beyond those indicated under Electrical Characteristics is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
Table 3 Absolute Maximum Ratings
Symbol Parameter Min Max Units Comments
Electrical Parameters
VH Maximum Heater Voltage (VH)1
1.8 V
Electrostatic Discharge
ESDHBM Human Body Model ±1000 V
Environmental Conditions
TAMB Ambient Temperature for Operation
-5 50 oC
TStrg Storage Temperature -40 125 oC
RHNC Relative Humidity (non-condensing)
10 95 %
MSL Moisture Sensitivity Level 1 Represents an unlimited floor life time
Note(s):
1. When VH is produced by PWM of a VDD above 1.8V the duty cycle (%) must not ex-
ceed 1.8V2 / VDD2
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1.7 Electrical Characteristics
Table 4 Electrical Characteristics
Parameters Conditions Min Typ2 Max Units
Recommended Heater Voltage (VH)
In constant power mode 1.4 V
Average Power Consumption (PAV)
Pulsed heating mode1 0.9 mW
Peak Power Consumption (PDC)
Constant power mode VH = 1.4V
33 mW
Heater Resistance (RH) VH = 1.4V @ 50% RH 50 58 66 Ω
Sensor Resistance In Clean Air (Ra)
VH = 1.4V @ 50% RH 10 1600 kΩ
Lifetime VH = 1.4V >5 years
Note(s):
1. Based on a sensor measurement duty cycle of 2.5%, heater ON for 1.5s (0.5s @
1.6V, 1s @ 1.4V) and then heater OFF for 58.5s (0V)
2. Typical values at 25°c and 50% RH.
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2 Detailed Description
2.1 Sensor Performance
Sensitivity is defined as the sensor’s resistance in clean air (Ra) divided by the sen-sor’s resistance at a specific gas concentration level at 50% relative humidity and 25°C ambient temperature (Rg). The following chart shows the typical sensitivity of CCS801 to CO, Ethanol and Toluene (as an example VOC gas) in constant power mode with a heater voltage (VH) of 1.4V.
Figure 3 Typical Sensitivity of CCS801 to CO, Ethanol and Toluene in Constant Power Mode
Note(s):
1. CCS801 performance in terms of resistance levels and sensitivities will change dur-
ing early life use. This change in resistance is greatest over the first 48 hours of
operation.
2. However, the MOX software libraries for CCS801 support different operation modes
and controls the burn-in period allowing eCO2 and TVOC readings to be used from
first power-on after 60 minutes of operation.
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3 Application Information
Figure 4 Recommended Application Circuit
Note(s):
1. The recommended application circuit including the MCU works with a +3.3V
supply voltage (VDD)
2. The sensor can be operated in pulsed mode to reduce overall power consump-
tion. In this case the Heater VH is only driven for a fraction of the time at regular
intervals under the control of an external MCU with an integrated ADC and DAC.
3. The MCU controls and regulates the DC voltage (0V to +3.0V) supplied to the
Heater VH through a DAC and external an OP-AMP.
4. An ADC input is required on the MCU to measure the sensor resistance option-
ally communicates with the host system via +3.3V I2C bus.
5. Control of the sensor bias is via an external MOSFET (p-channel) and a GPIO to
turn ON / OFF the MOSFET as power to the sensor bias is only when needed for
the ADC measurements. If not driven the MOSFET input should be pulled high.
6. A minimum load resistor (RL) value of 200kΩ is recommended.
7. For more information please refer to the CCS801 design guidelines application
note AN000363.
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4 Package Information
4.1 Package outline dimension
Figure 5 DFN Package Outline Drawings
Note(s):
1. All dimensions are in millimeters.
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4.2 Landing pattern
The recommended package footprint or landing pattern for CCS801 is shown below:
Figure 6 Recommended Package Footprint for CCS801
Note(s):
1. All dimensions are in millimeters.
2. PCB land pattern in Green dash lines
3. Pin numbers are in Red
4. Add 0.05mm all around the nominal lead width and length for the PCB land
pattern
Pin 1
Corner
0.45
1 4 0.85
1.5
2 3 0.85
1.30 0.45
Top View
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5 Ordering & Contact Information
Table 5: Ordering Information
Ordering Code Description Package MOQ
CCS801B-COPR5K CCS801B VOC sensor for in-door air quality monitoring
2mm x 3mm x 1mm DFN 5000
CCS801B-COPD500 CCS801B VOC sensor for in-door air quality monitoring
2mm x 3mm x 1mm DFN 500
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6 RoHS Compliance & ScioSense Green Statement
RoHS: The term RoHS compliant means that ScioSense B.V. products fully comply with current RoHS directives. Our semiconductor products do not contain any chemicals for all 6 substance categories, including the requirement that lead does not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, RoHS compliant products are suitable for use in specified lead-free processes.
ScioSense Green (RoHS compliant and no Sb/Br): ScioSense Green defines that in addition to RoHS compliance, our products are free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material).
Important Information: The information provided in this statement represents ScioSense B.V. knowledge and belief as of the date that it is provided. ScioSense B.V. bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. ScioSense B.V. has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. ScioSense B.V. and ScioSense B.V. suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.
7 Copyrights & Disclaimer
Copyright ScioSense B.V High Tech Campus 10, 5656 AE Eindhoven, The Netherlands. Trademarks Registered. All rights reserved. The material herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.
Devices sold by ScioSense B.V. are covered by the warranty and patent indemnification provisions appearing in its General Terms of Trade. ScioSense B.V. makes no warranty, express, statutory, implied, or by description regarding the information set forth herein. ScioSense B.V. reserves the right to change specifications and prices at any time and without notice. Therefore, prior to designing this product into a system, it is necessary to check with ScioSense B.V. for current information. This product is intended for use in commercial applications. Applications requiring extended temperature range, unusual environmental requirements, or high reliability applications, such as military, medical life-support or life-sustaining equipment are specifically not recommended without additional processing by ScioSense B.V. for each application. This product is provided by ScioSense B.V. “AS IS” and any express or implied warranties, including, but not limited to the implied warranties of merchantability and fitness for a particular purpose are disclaimed.
ScioSense B.V. shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interruption of business or indirect, special, incidental or consequential damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical data herein. No obligation or liability to recipient or any third party shall arise or flow out of ScioSense B.V. rendering of technical or other services.
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8 Document Status
Table 6: Document Status
9 Revision Information
Table 7: Revision History
Note(s) and/or Footnote(s):
1. Page and figure numbers for the previous version may differ from page and figure numbers in the current revision.
2. Correction of typographical errors is not explicitly mentioned.
Document Status
Product Status
Definition
Product Preview
Pre-Development
Information in this datasheet is based on product ideas in the planning phase of development. All specifications are design goals without any warranty and are subject to change without notice.
Preliminary Datasheet
Pre-Production
Information in this datasheet is based on products in the design, validation or qualification phase of development. The performance and parameters shown in this document are preliminary without any warranty and are subject to change without notice.
Datasheet Production Information in this datasheet is based on products in ramp-up to full production or full production which conform to specifications in accordance with the terms of ScioSense B.V. standard warranty as given in the General Terms of Trade.
Datasheet (Discontinued)
Discontinued Information in this datasheet is based on products which conform to specifications in accordance with the terms of ScioSense B.V. standard warranty as given in the General Terms of Trade, but these products have been superseded and should not be used for new designs.
Revision Date Comment Page
1-02 2016-Dec-19 Initial Version
1-03 2017-Mar-27 Updated Figure 11 10
1-04 2018-Apr-23 Updated Product Overview
Added note below Figure 6
Updated notes under Figure 7
Updated Figure 8
Updated Figure 11
Various
2 2021-Jan-18 References to ams changed to ScioSense all
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ScioSense is a Joint Venture of ams AG
Headquarters: ScioSense B.V.
High Tech Campus 10
5656 AE Eindhoven
The Netherlands
Contact: www.sciosense.com
Content Guide1 General Description1.1 Product Overview1.2 Key Benefits & Features1.3 Applications1.4 Application Diagram1.5 Pin Assignment1.6 Absolute Maximum Ratings1.7 Electrical Characteristics
2 Detailed Description2.1 Sensor Performance
3 Application Information4 Package Information4.1 Package outline dimension4.2 Landing pattern
5 Ordering & Contact Information6 RoHS Compliance & ScioSense Green Statement7 Copyrights & Disclaimer8 Document Status9 Revision Information